Nuclear Physics Division

IRFU contributions

Scientific et technical responsabities

The SPHN joined the PHENIX experiment at the end of the year 2000 together with several groups from the IN2P3, inside the PHENIX-France collaboration. Its original contribution was to finance 25% of the readout electronics of the PHENIX forward rapidity muon spectrometerss, dedicated to the measurement of muons at forward rapidity. Until the end of the year 2010, at which time the SPHN has officially left the collaboration to focus on the ALICE experiment [7], on the Large Hadron Collider (LHC), at CERN, our group has been active in the following fields:

• on the hardware side, beside the mandatory shifts that all the scientist participating to the experiment must take during data taking, we have contributed to the maintenance of the muon spectrometers during the shutdown periods of the detector;
• on the software side, we have participated in rewriting the track reconstruction algorithm at forward rapidity in preparation of the first high luminosity Au + Au run at RHIC in 2004 and have remained in charge of the development and maintenance of this algorithm since then. We have also become responsible for all the simulations of the experiment, needed to correct PHENIX measurements from the detector’s acceptance and inefficiencies in order to derive physical quantities. Finally we have also implemented the algorithm needed to evaluate and monitor the alignment of the muon spectrometer, based on reconstructed tracks with and without magnetic field.
• on the analysis side, we have played a leading role in all analysis that involve the production of the J/ψ meson at forward rapidity, and their interpretation in terms of the properties of the nuclear matter created in p + p, d + A and A + A collisions. As such we have been part of the internal Paper Publication Group of almost all J/ψ related PHENIX publications, since 2007.

Conclusions and perspectives

The production of the J/ψ meson has been extensively studied at RHIC, in p + p, d + A and A + A collisions to quantify the effects of the surrounding cold and hot nuclear matter created during heavy ion collisions. The SPHN group has played a crucial role at all steps of these studies over the past 7 years, by contributing to the maintenance of the muon detector at forward rapidity, taking the responsibility of the reconstruction software of the forward rapidity data and of the simulation software at both mid- and forward rapidities, and by actively participating to almost all the J/ψ related analysis performed in PHENIX during this period.
The partial conclusions of these studies are that:

• J/ψ measurements in p + p collisions have become precise enough to discriminate between some J/ψ production mechanism models and parton distribution functions, although some crucial measure- ments are still missing, such as a precise measurement of the J/ψ polarization or the measurement of feed-down contributions from higher mass resonances and B mesons. (Some of these measurements are becoming available but with limited statistics);
• a number of effects can significantly modify the production of J/ψ in heavy ion collisions in absence of a quark gluon plasma. These cold nuclear matter effects are still largely unconstrained and existing calculations are not capable of simultaneously reproducing all the available measurements;
• a significant suppression of the J/ψ meson is observed in Au + Au (and Cu + Cu) central collisions, that extends beyond the suppression inferred from cold nuclear matter effects only, and can therefore be attributed to the formation of a hot dense medium during the collision, identified to a Quark Gluon Plasma, whose properties are still being studied. The suppression measured at RHIC can be more or less reproduced by calculations that include a large number of both cold and hot nuclear matter effects that sometime partially compensate. More measurements are required to nail down the relative contributions of these effects.

The expertise acquired by the group during its participation to the PHENIX experiment is being fully exploited in our contribution to ALICE.

Contact

Hugo PEREIRA DA COSTA